Magnetic tape recorder



May 9, 1961 .1.ToRo

MAGNETIC TAPE RECORDER 6 Sheets-Sheet 1 Filed Dec. 18, 1956 QM NM Nm. a E@ e.. .552. azota e our-onl- 1NVENTOR. /of/,v Tae@ 6 Sheets-Shet 2 INVENTOR. ./aH/v Toe@ rrai/VEKS J. TORO MAGNETIC TAPE RECORDER May 9, 1961 Filed Dec. 18, 1956 May 9, 1961 J. TORO MAGNETIC TAPE RECORDER Filed Dec. 18, 1956 6 Sheets-Sheet 3 BQMVZSM #frans/5K5 May 9, 1961 J. ToRo 2,983,457

MAGNETIC TAPE RECORDER Filed Dec. 18, 1956 6 Sheets-Sheet 4 fl 6" 7 INVENTOR.

JaH/v Taio plm irme/vini May 9 1961 l J. ToRo 2,983,457

MAGNETIC TAPE RECORDER Filed Dec. 18, 1956 6 Sheets-Sheet 5 INVENTOR. ./a//N 70?@ BXWV/SM May 9, 1961 J. TORO 2,983,457

MAGNETIC TAPE RECORDER Filed D66. 18, 1956 6 Sheets-Sheet 6 A I- lan 7 INVETOR.

./a//N T090 rra/avifi 2,983,457 MAGNETIC lTAPE Rncononjn' John Toro, San Carlos, Calif.assignor to T oro Indus# tries, Inc., San Carlos, Calif., a corporation of Californiti Filed Dec. 1 8, 1956, Ser. No. 6,219,034 '3 Claims. (Cl. 242-5512) This invention relates to magnetic tape recorders suit.- able for recording and reproducing sound or other quantitles that can be represented by electric` signals, and in particular relates to a high-.quality portable tape recorder having'improved tape transport and control mechanisms.

ln a magnetic tape recorder, the'tape must be accurately guided from a .supply reel past the erase, recording, and playback heads and onto a take-upreel. v The alinement of the tape as it passes the recording and playback heads n is especially critical. The tape must not only move past the heads with a uniform longitudinal velocity, but also in precise and unvarying lateral alinement and Without any buckling or warping. yIf these criteria are not met to a high degree of precision, the quality ofthe recorders per'- formance will beseriously lessened.

In conventional high-quality tape recorders, the aline? ment problems are met bymounting all of the tape transport mechanism in substantially coplanar relation upon a heavy rigid base plate. The spindles for the supply and take-upreels must be kept precisely parallel with each other and precisely normal tothe plane of the base plate: otherwise, there will be somevbuckling or lateral misalinement of the tape as it moves past the recording and playback heads, which is sure to result in inferior perf formance Obviously, such a heavy, rigid'construction is expensive `and contributes greatly to the cost of highquality portable tape recorders. Furthermore, it is an awkward, heavy and bulky arrangement, because the coplanar arrangement of parts makes necessary "a large, heavy, at mounting plate and a Vcorrespondingly large, heavy case or cabinet. i

YBriey stated, in accordance with certain aspects of the present invention, a high-quality magnetic'tape recorder, that is considerably lighter, smaller,jand ^less expensive than conventional recorders off comparable quality, `is provided byl mounting the supply and take-up. reels on opposite parallel sides of the recordercase, and providing a novel tapeguiding land transport mechanism for guiding the tapepast the erase, recording',and playback heads. Adjustable inclined guide posts"are'utilized for guiding the tape around corners of the casein such a waythat the tape automatically 'positionsitself in accurate lateral alinement and has lnotendency to buclde. With this construction, the alinement of ythev spindles for the supply and take-upreels is not awcritical parameter in thedesign. The need for 'a large, heavy, extremely rigid mounting plate is eliminated. ,"Consequentlnnthe improved tape recorder is not only smallerv and lighter, but vis also much'easier and less costlyto manufacture than conventional recorders of comparable' quality.

,Qther y features and .advantages of the IinventionY Vwill appear as the description proceeds. Y Y

The invention will be better understood `*from the nfolf .Eis-".1 ,is aside dentisti the gewaltige insider.;

latented May 9, 195i Fig. 2 iS a front elevation vofthe same tape recorder;

Fig. 3 is a section taken generally along the line 3'3 of Fig. l;

Fig. 4is a section taken generally along the line 4 4 gf Fiel; Fig. 5 is an enlarged detailed section taken generally along the line l5-f-5 of Fig. 4;

Fig. 6 isa fragmentary ysection taken along the line 6.-6 of Fig. 5;

Fig. 7 is a fragmentary `section taken along the line 7 -7o fFilg.5; i f

Fig. 8 is a detailedsection taken vgenerally along the line lie of Fig. 4;

Fig. 9 is a section taken generally along the line 9-7-9 ofFig'A.; n l

y Fig. 10 is a section .taken generally alongthe line 19g-T10 of Fig. l;

Fig. ll is a detailed section taken generally ralong thev line 11-11 ofFig. 2; and Y Fig. 12 is schematic diagram of the electrical control circuit. f

' With particular reference to Figs. 1 and 2 of the drawings, the recorder is provided with a case or cabinet 1 having two recessed at parallel opposite sides for ac.- cornmodating the conventional supply and take-up reels.

The supply reel 2 is clearly shown in Figs. l and 3, and i `for the use of large professionaltype reels 2 and 3 as shown in the drawing. Smaller reels can, of course, be

Aused with equal facility whenever such is desired. Even with the greatly reduced overallphysical size itis possible to leave the reels mountedV on the machine'ready -for use, Without extending beyond the dimensions of the case as is often necessary to keep size lto a minimum. The magnetic recording head 4 and the playback head 5 are contained in` alhousin'gj mounted von the front offa slanted panel 7 of case l, as is'bfest shown in Figs. l and 2. -The erase head 8 preferably isV mounted on 'the rsainesideoi'the case as thesupply reel Heads 4, S and 8 are electromagnetic transducers of the type commonly used for like purposes in conventional magnetic tape recorders. Heads 4 andS have'tape-contacting faces disposedperpendi'cular to panel 7, while head 3 has a tape-contacting face disposedperpendicular to the.

side of the case on which it is mounted. IA magnetic recording tape 9 is withdrawn from supply reel 2, and

passesY successively over a guide postA wand the face j of erase head 8V. Tape 9'then passes'insuccession across' an` inclined postlland the' faces ofY recording -head 4 n 'and playback head 5.y The tape may be vdriven at a constant longitudinal velocity by a` conventional drive mechanism consisting of capstan 12 andV rubber-tired idler 13. Thenthetape passes across another inclined pos-till anda guide post 15, and is wound upon the take-up reel 3. "Posts 'lil and 15 vproject outwardly per pendicular to the sides of the case 'on which they? are mounted; and arein ylateral Vtapewse alinerrient'lwith supply reel y2' and take-up reel'3,respectively. (That is, the posts and reels are alined with respect .tothe lateral direction of' the: 'tape woundfupon the reels',` which is v parallel to the r'eel`arxis.) Y Erase head 8 ris in lateral tapcwc ,alioem'entgwth{supply-regl 2. Yand giderps't.

3 10.v Heads 4 and 5, capstan 12 and idler 13 are in lateral tapewise alinement with one another. (That is, the.V recording and playback heads and the tapeV driving mechanism arealined with respect to the lateral'direction of the tape-passing over these heads and through this mechanism which` is perpendicular to panel 7.) Slanting post -11 is in lateral tapewise alinement with supply reel 2, and is also in lateral tapewise alinement with heads 4 and 5'. Slanting post 14 is in lateral tape- Wise alinement with heads 4 and 5 and also with take-up reel 3. Posts-11 and 14 are in slanting relation to panel 7, slantinggenerally inward toward each other and up- Wa'rdtoward the recording and playback heads. j

The inclinedgposts 11 and 14 play an important part in guiding and alining the tape. The preferred construction of these two posts, which are substantially identical, is'be'st illustrated in Fig. 1l.

The inclined post 14 includes a metal screw 16 threaded through a glass tube 1'7 and supported by a metal bracket 18. Bracket 18 is attached to the slanted panel '7 of the recorder case by means of a single screw 19 extending through an oversized hole in bracket 18, as shown. Bracket 18 is bent so that screw 16 and glass sleeve "17 form an inclined post extending at an angle of approximately 60 degrees to the surface of panel 7. Because of the adjustment features hereinafter explained, this angle between the slanting post and the panel is not critical, and precise manufacturing tolerances need not be maintained. In other words, a difference of several degrees either way in the 60 degree angle is relatively unimportant.

Tape 9 passes across the cylindrical outer surface of glass tube l17. Because the hardness yand Wear-resistance qualities of glass, the effects of wear upon the slanting posts are negligible. The position of the slanting post can be adjusted by loosening the screw 19. The oversized hole in bracket 18 permits some lateral movement of the post upon panel 7. Furthermore, bracket 18 can be turned to adjust the Yangular orientation of the slanting post with respect to panel 7. (That is, to adjust the angular orientation of the projection of the post on the panel.) Once the post has been adjusted to a desired position, it is locked in place by tightening screw 19.

Again referring to Figs. Vl and 2, posts 11 and 14 and the adjustment of their positions have important eifects upon the alinement of tape 9. Consider postl 11, for example. As the tape comes off the supply reel and passes over guide post and the face of erase head 8, the lateral direction of the tape is parallel to the plane of panel 7. As the `tape crosses the faces of recording head 4 and playback head 5, its lateral direction is perpendicular to the plane of panel 7. The transition between these two different orientations of the tape must be made without buckling of the tape and without unequally stressing or stretching opposite edges of the tape. The bending of the tape over the slanting post 11 accomplishes the necessary change in orientation in the desired manner.

The slant of post 11 relative to the tape (not relative to panel 7) is very critical, because if the slant is too small the tape will tend to ride up on the post and move too far upward away from panel 7-as it passes across heads 4 and 5. vOn the other hand, if the slant of post 1'1 relative to the tape is too large, the tape will tend to ride down on thepost and move too far downward toward panel 7 as it crosses heads 4 `and 5. By rotating Apostfll and its mounting bracket as a unit, the slant ofthe post relative to the tape can be adjusted to a position ,at which the tape becomes self-alirnng and passes across Ythe faces of heads 4 and 5 in precisely the correct lateral position. l Y Moving-the post 11 laterally on panel 7 as is permitted by the oversized hole in its mounting bracket, adjustslthe lateral position'ofthe, tapeasuit Acrosses erase head 8 and also adjusts the direction toward which the tape is withdrawn from supply reel 2, thereby insuring that the tape will run true as it leaves the supply reel and will not drag against the sides of the reel.

Post 14 is adjusted in a similar manner. The post and its mounting bracket are rotated as a unit to adjust the angle between the slanting post and the tape to a value at which the tape is self-alinng and runs true across the recording andplayback heads in correct lateral alinement. Post 14 is positioned laterally on panel 7 to make the tape run true as it enters the take-up reel and to prevent any dragging of the tape against the edges of the reel. Y

A very significant aspect of this novel tape-guiding system is that the adjustment of posts `11 and 14 as hereinbefore explained insures that the tape will run true and will maintain itself in correct lateral alinement without any necessity for precise alinement between the supply and take-up reels and the recording and playback heads. it is not even necessary that the supply and take-up reels be exactly parallel, or that their spindles be in exact alinement. By this means many manufacturing diftlculties are avoided, manufacturing tolerances can be increased, and the need for a large heavy, rigid mounting plate is eliminated. Substantial manufacturing economies are obtained and at the same time the recorder is made considerably smaller and lighter than prior recorders of comparable quality. The manner in which reels 2 and 3 are attached to their spindles is best illustrated in Figs. l and l0. The two rotative spindles project outward through and substantially perpendicular to the two opposite sides of the case. Reel 2, for example, is a conventional professionaltype large reel holding a considerable length (2500 feet, for example) of conventional magnetic recording tape. Reel 3 is similar. Mounted on rotative spindle 20, and rotating therewith by virtue of the key 21, there is a driving disc 22 that projects slightly beyond` the side of case 1 through a circular hole therein, as shown in IFig. l0. The outer face of disc 22 is covered with a somewhat resilient non-skid material such as a layer of rubber 23. A discoid hub 24 fits over the outer end of spindle 20, as shown, and engages the center portion of reel 2 for holding the reel securely in place on the spindle and securely against non-skid rubber layer 23. By this means the reel is held in axial alinement with the spindle and in lirictional engagement with disc 22, so that reel 2 and spindle 20 rotate together as a unit.

Hub 24 is held in place on spindle Z0 by means ofv two dat metal flippers or ngers 25 and 26 that are pivotally attached to the outer end of spindle 20 by means of a pin 27. The inner ends of the flippers are squared-off, as shown in Fig. 10, andt side-by-side within a longitudinal slot in the outer end of the spindle. The outer ends of the two ippers are adapted to extend outwardv transversely on opposite sides of the spindle. An axial bore within the end of spindle 20 contains a small compression spring 2S that presses against the inner ends of flippers 25 and 26 in the manner illustrated. Thus, when the llippers vare flipped outward spring 28 presses against the corners of the ends of the two flippers and tends to force them into a more spread-apart position, and the two flippers press inward on hub 24 to hold it'securely in place.

When removal of the reel 2 is desired, flippers 25 and 26 are simply pressed together into the broken line positions indicated atr25' and 26'. In this position spring 28 presses against the squared-off ends of the llippers and keeps them in a position substantially alined. with the axis of spindle 20. vNow hub 24 and reel 2 can quickly and easily be removed.

It is evident that this improved means for fastening the reels upon the spindles makes itvery easy to change reels whenever desired. Furthermore, smaller reels can #be substituted whenever. desired.- When the. small.` reels are used, hub 24 is omitted and theeelfi't'self' is" held firmly against the non-sldd rubber layer2 3 by tiippers 25 and 26. Still another advantage of the improved reel-fastening means vis that it projects but a very short distance beyond the reels themselves, and kthus offers no obstacle to placing the entire recorderin a small, compact carrying-case, and being attached to theshaft are not subject to being lost or misplaced."

Again referring in particular to Figs. 1 and 2, each of the guide posts l@ and 15 has a at metal cap 29 with an inwardly bent tab, as is best shown in Figs. 1, 2 and 4. These tabs help Yto hold the tape in place and prevent fordriving the supply and take-upreels is supplied by an electricmotor v56. In the-preferred embodiment illustrated, motor 56 supplies torque directly to only one reel at a time and the other reel is rotated by the pull of the tape. During forward motions of the tape, as `(for example) during recording and playback, motor 56 supplies torque to take-up ,reel 3 so that the tape will be Wound upon the take-up reel'as fast as it passes through the capstan-and-idler driving mechanism. The tape is simply pulled off of supply reel 2 by the tape driving mechanism, and undue slack is prevented by the restraint it from slipping on the guide postsif for any reason any v l slack develops in the tape. Thus the tape issecurely held in place at all times, yand yet threading and-unthreading the tape is exceptionally simple. The reelsare simply placedon their spindles, with an adequate loop of tape between the two reels, then the tape is `looped overr the several magnetic heads, dropped between capstan 12 and idler 13, and pushed behind caps 29 and under tabs thereon in a quick, easy and practically effort less manner.

After the tape is in place against guide post, a drag lever 30, best shown in Figs.v 1 and 4, is flipped into position against the tape, with the tape between drag member 30 and post 10. The purpose of the drag member is to exert a slight, constant restraint against motion of the tape past post 10, to keep a constant tension on the tape as it is pulled past the several magnetic heads by capstan l12 and idler 13. This tensionis constant regardless of the diameter or angle from which the tape is being fed, thus being constant as tape supply changes the diameter or angle of tape takeoff from reel.- k

Other parts that can be, seen in Figs. 1 and 2 include an electrical .plug 31 for receiving the cord that connects the recorder to an electrical outlet or other electrical supply, conventional dials 32, ,33, 34 and 35 for adjusting the amplifier gain and other parameters in the electrical circuits, sockets 36 and 37 for accommodating 'input and output electrical connections, and jacks 38'and 39 for the connection of unbalanced electrical input lines and monitoring earphones. kThe dials on the vertical front panel of the case are protected by guards 4t) and 41. On the slanting panel 7 of the case there are iivepushbuttons 42, 43, 44, 45 and 46 for pushbutton control of the recorder in a manner hereinafter described. A small elec-` imposed by normal friction forces.

For rewinding the tape, motor 56 supplies,y torque to supply reel 2,-moving the tape in the opposite direction, to rewind the tape onto `reel 2. While this isv being done the tape is simply pulled oif reel 3 by'the tension of the tape, and excess slack is preventedby normal friction forces. lf in either case thel undriven reel tends to runaway and produce excessive slack in the tape, this condition canbe corrected by adding a small felt pad or the like pressing against one of the rotating parts tric meter 47 is providedfor monitoring input and outputl An indicator lamp signal levels. erasefunction is operative.

Figs. 2, 4 and 8, includes a capstan 12 and a rubber-tired idler 13. Capstan 12 is rotated at constant speedy by an.

electrical motor 49 'continuously asl long as the electric:

power of the recorder is turned on, Idler 13 is mounted on a shaft 50 thatextends through a slot 51 inv panel 7 and is attached to the outer end of a lever 52 that is pivoted at 53. A spring 54 attached to lever'52, as shown in Fig. 8, tends to pull idler 13 away from capstan 12. During recording and playback, idler 13 isipulled toward capstan 12 by a cable 55c`onnec`ted between lever 52 .and controlmechanismhereinafter described.

The magnetic recording tape 9 passesbetween capstan 12' and idler'13. v When the idler is Apulled ,awayfrom the capstan byspring 54, rotationA of ,the capstan has no appreciable effect upon movement or lack of movement of the tape. In this vcase movement ofthe tape is controlled solely'by rotation of thegsupply and takeup reels.V However, during recording andplayback, when cabler 55 lpulls idler 13 toward capstan 12, the tapevis securely gripped betweenthe idler andthe capstan, and the tape is pulled past `the magnetic, head ata constant speed by the rotationof capstan `12. YThe mechanism, for drivi -g the. supplyfreel Zand takes. up reel lis, best shown fin'Figs, 3,y 4 and v9. lvlotive,power 48Ylights when record-Y necessarily precisely, in axial alinement. Spindles 20 and 57 are rotatively supported in bearings at theends of supporting brackets 59 and 69 that are attached to opposite sides of case ll, as shown.

A metal disc 61 is attached of spindle 57. Preferably, these two discs are substantially, Vbut not necessarily precisely, parallel and in axial y alinement. The shaft 63 of motor 56 extends transversely and substantially midway between discs '61 and 62, as is best shown in Fig 9. Two rubber-tired wheels 64 and 65 are mounted on shaft 63 with their peripheries respectively adjacent to diametrically opposite portions of discs 61,and 62. Wheels *64 and 65 are not rigidly attached,l to shaft 63, but are in' frictional engagement therewith, so that wheels 64 and 65 can slip relative to shaft 63 while'transmitting torque developed by rotation of the motor shaft. This may be accomplished, for example, by providing a somewhat loose lit` between shaft 63 and wheels 64 and 65, and Vthen providing a compression spring 66 between the two rubber-tired wheels for forcing wheels 64Y and 65 apart and into frictional engagenientwith-collars 67 and68 that'are rigidly attached to theshaft. In other words, wheels 64'and 65 are attached to shaft 63 through a friction clutch, which permits Vthe motor-to bein rotation vbefore engagement of tires, insuring a fastf'acceleratio'n of reel with minimum lslippage of rubber tire surface on disc 61 or 62. 4 v VMotor 56 is supported by brackets 69 and 70 that yex- Y tend transversely across the recorder case 1. Motor 56 is pivotallyr supported at 71 and '72, so that the motor can be rotated ,slightly 'about a'v 'transverse axis. Such rotation moves shaft 63 toward disc 61 or toward disc 62, selectively. 'Furthermore, the axis of shaft 63 is slightly inclined'vrelative 'to a plane lpassing midway be. tween `and'parallel to discs 61 and 62. This is best illustrated in Fig. 9, where broken line 73 .representsv the axis of shaft 63and broken line-73 represents the plane Y midway between andrparallel to theinner faces of discs 61 and 62.l Consequently, disc 6-1'is always closer to is always closer Y wheel 64 than to wheel 65, while disc 62 to wheel`65 than to wheel64. When motor 56 is rotated about its pivots '71j'and 72 inf the clockwise direction as viewed in Fig.' 9, rubb'er-V tired wheel 64jisbrou'ghtinto firm frictional engagementV with 'disc61, and motor A56 then'sup'plies torquethrough when to dise 61, and spindle entends tpmtatesup i to the inner end ofspinn die 20, and a metal disc `62 is attached to the inner end.

accenni 7 ply reel 2 and to wind the tape 9 onto Athe supply reel. In `other words, the position of motor 56, as illustrated in Fig 9, is the rewind position of the reel driving mechamsm.

When motor 56 is rotated slightly counterclockwise, wheel 64 is disengaged from disc 61 and wheel 65 comes into rrn, frictional engagement with disc 62. Now motor 56 supplies torque to spindle 57 and take-up reel 3 for winding the tape upon the take-up reel.

Motor 56 is moved to either of its two positions, selectively, by cables 74 and 75 that are connected between the motorand control apparatus hereinafter described. A spring 76 is connected in series with cable 74, as shown in Fig. 9, lso that when he control mechanism pulls upon cable 74 spring 76 is stretched, and the spring tension provides the force needed to hold rubber-tired wheel d4 in iirrn frictional engagement with disc 61. Similarly, a spring 77 is connected in series with cable 75, so that when the control mechanism pulls upon cable 75, spring 77 is stretched, and the spring tension provides the force needed to hold rubber-tired wheel 65 in rm frictional engagement with disc 62.

Whenever movement of the tape in either direction is to be stopped, rotation of reels 2 and 3 should be stopped abruptly to avoid the occurrence of either strain which might damage the tape or the unwinding of excess tape from the reel and the creation of undesirable slack in the Y tape. For abuptly stopping rotation of the reels, brakes are provided that at appropriate times engage the drumlike rims of discs 22 and 58. Identical sets of brakes are provided for stopping the rotations of both reels.

The brakes that engage the drum-like edge of disc 58 for stopping -rotation of take-np reel 3.are best shown in Fig. 4. wTwo brake shoes 78 and 79 are mounted at the ends of two levers 80 and 81 that are rotative about a common pivot at 82. A spring 83 is connected between the two 4arms 80 and 81, and tends to pull the two arms together and thus to` bring brakes 78 and 79 into frictional engagement with the rim of disc 58. For disengaging the brakes, cables 84 and 84 are attached to arms 80 and 81 and threaded over a system of pulleys 85 and 85' so that brakes 78 and 79 are pulled away from the rim of disc 58 when a control mechanism hereinafter described pulls upon cables S4 and 84'. A similar brake system operates in association with disc 22.

A carrying handle for the recorder is formed by an inverted U-shaped metal strap 86, best illustrated in Figs. 3 and 4, having two legs that extend downward through slots in the topy of case 1. The two legs of strap 86 contain slots 87 through which passes a horizontal bar 88 rigidly mounted inside of case 1. Bar 88, which for convenience of `assembly may be made of several parts bolted together as shown, attaches strap. 86 to case l-while per,-` mitting some vertical movement of the .strap relativeA to the case. When the handle is not in use, strap 86 lies at against the top of case 1, as is shown by full lines in Figs. 3 and 4. When the strap islifted, it moves upward relative to the case until the bottoms of slots 87 engage the lower edge of transverse bar 88, whereupon upward movement of strap 86 relative to case 1 is prevented and any further lifting of the strap will lift the case and the entire recorder. This raised position of strap 86 is indicated at 85' by broken lines in Figs. 3 and 4. In the raised position strap 86 forms a convenient and rugged handle for carrying the recorder. Y

Particular reference is now made to Figs. 4 through 7. As hereinbefore explained, a pull on cable 55 moves idler 13 toward capstan 12 and thus engages the conventional Y 8 guiding and transport mechanism. A pull on cables 84 and 84? releases brakesl 78 and 79. When there' is no pull on cables 84 and 84', brakes 78 and 79 grip the drum-like peripheryV of disc58 for abruptly stopping rotation of the take-up reel. In a similar manner, cables 89 and 89 are operated to release the brakes associated with the supply reel. Cables 84, 84'89 and 89 pass-over pulleys mounted on shaft 90, as shown in Fig. 5.

YA novel control system is employed for pulling on appropriate ones of Ythe cables a-t selected times for c0n trolling the operation ofthe recorder. The control mechanism includes a single actuating solenoid 91 that supplies the force required for pulling all of the cables. A longitudinally movable actuator bar 92 is connected to sole-` noid 91 through a cable 93 that passes over a pulley 94. A spring 95 forces actuator bar 92 towards the right and keeps cable 93` taut. Wheneversolenoid 91 is energized, the solenoid pulls on cable 93 and this lpulls actuator bar 92 towardsthe left, compressing spring 95 and pulling upon selected ones of the control cables in a manner hereinafter explained. Y

The center of a crossbar 96 is pivotally attached to the right end of actuator bar 92, as is best shown in Fig. 5. Cables 84 and 84' are, in fact, the two end halves of a single cable that is looped around one end. of crossbar 96, as shown. Similarly, cables 89 and 89' are, in fact, the two end halves of a single cable that is looped around the other end of crossbar 96. With this arrangement, sub stantial-ly equal tension isnapplied to lall four of the cables 84, 84', 89 and 89' whenever actuator bar 92 is moved toward the left by actuation of solenoid 91. Consequently, whenever solenoid 91 is energized the supply reel and take-upvreel brakes are simultaneously released so that both reels can rotate, and whenever solenoid 91 is de# energized the same brakes are simultaneously re-engaged for abruptly stopping the rotations of both reels.

Three latches 97, 98 and 99 are mounted upon actuator bar 92. rEach of the three latches is a metal linger having its. inner end bent around bar 92 and its outer end extending outward transversely from bar 92 so that the finger can rotate about the axis of the actuator bar. Latches 97 and 98 extend out to one side of bar 92, one on an upper level and one on a lower level, as shown in Fig. 5, while latch 99 extends outward to the other side of bar 92. The three latches are alined in abutting relation to one another on the actuator bar, and are held in longi-l -tudinal position on bar 92 by means of collars 100V and 101. When bar 92 is moved to the left by actuation of solenoid 91, collar 101 forces latches 97, 98 and 99 to capstan drive that moves the tape lengthwise at co-nstant move towardvthe left also. When the solenoid is de-Y energized and bar 92. moves toward the right, collar 100 moves latches 97, 98 and 99 toward the right.

. In the engaged positionsrof the latches, the outer ends of latches 97, 98 and 99`abut on-` transverse shoulders Vof three slides, 102, 103 and V104, respectively. When Vso engaged, each latch moves its associated slide toward the left whenever actuator bar v92 is moved towardA the left by actuation of solenoid 91. The'latches are normally in the engaged position, but each may be moved to a disengaged or unlactlled position, out of abutting rela? tion with the shoulder of the associated slide, by means hereinafter described.

-Slide 102 is connected to cable 74, so that cable 74 is pulled upon whenever slide 102 is moved to the left by latch 97. As hereinbefore explained, this causes motor 56 to supply torque to supply reel`2 for rewinding the tape on the supply reel. Slide 103 is attached to cable 55 so that cable 55 is pulled upon whenever slide 103 is moved toward the left by latch 98. As herenbefore explained, this pulls idler 13 toward capstanV 12 yfor engag,L ing the capstan drive that pulls thetape past the recording andplaybackheads. `Slide 104 sattached tolcablej75so thafcable is pulledlupongwhe er,` slide 10,4 is' moved towardtheleft by latch' 99. Asmherenbe'forezcxplained,

this causes motor 56'to supply torque to take-up reel^3f for winding the Vtapeupon the take-up reel.

Since torque is never supplied to the supplyand take-up..

reels simultaneously, latches 97 and 99 may, if. so desired, be rigidly connected together, or made fromva single piece of metal, so that whenever latch I97 is` in the engaged position latch 99 will be in disengaged position and vice` actually above the plane of the figure, but the-outline of the relays is shown .by broken lines lso that the relation of the relays to the latches can be clearly understood.

The electrical contacts of the relays are conventional and are not shown in the drawings, but smalllportions fof the conventional relay armatures that operate the switch arms can be seen in Fig. 6 and are identified by the reference numerals 105', 106' and 107. vWhen the relays are de-energized, the three relays armatures press down on the tops of the three latches 97, 98 and 99 Afor holding the latches in their normal engaged positions. When a relay is energized, magnetic attraction lifts the armature for actuating the electrical contacts of the relay, and the same magnetic attraction also lifts the associated latch to its disengaged position, in whichv the latch clears the shoulder of the associated slide so that movement. of

' actuator bar 92 will notv move that slide vnor Vpull upon thecable attached thereto.

Fig. 12 shows the Ielectrical circuit'whereby the operationv of the recorder is controlled by pushbuttons 42 through 46 mounted on slanting panel 7. Input selector dial`32 is turned to the desired position, dial 33 Ais ad` justed to turnon the electric power and to set the capstan speed at either a high or a low value, depending upon the tapeV speed desired, and the gain-controldials 34-and V35 are appropriately adjusted.

lTo start the tapemoving past the recording and playback heads at normal speed, start pushbutton `43Cis depressed momentarily: "This closes 'an electrical circuit that energizes relay 105. A holding contact 108 keeps relay 105 energized afterpushbutton 43 is released. As relay 105 picks up, it lifts latch '97 "to the disengaged positionand closes an 'electrical contact 109 that completes speed for either recording or playback. When one wishes to start recording, pushbutton 42 is depressedmomentarily. This energizes a -relay 111 having contacts for makingy suitable connections in the recording circuits. A'

holdingcontact 112 keeps relay `lll energized after pushbutton 42 is released. l v

To stop the tape, pushbutton46 is depressed momentarily. f When pushbutton 46 is depressed, the electrical circuits to all off the control relays are interrupted, and

allof the relays drop out. Solenoid 91 is also de-energized. When solenoid 91 is de-energized, spring 95 moves the control actuator bar 92 to the right, thereby substantially releasing the pull` upon all of the control cables. Idler Y1S, moves awayfrom capstan 12 and the capstan stops driving thetape. Simultaneously, `the brakes abruptly stop the rotation of supply reel 2 and take-up reel 3,.

` yNow assume that it is desired to rewindr the` tape upon the supply reel. `Pushbutton 45 is depressed momentarily,

and this completes electric circuits for energizing relays 106 and 107. Holding contacts 113` and 114v keep relays 106 and 107 energized aterpushbutton 45 is released. As relay 106 picks up, if lifts latch 98 to the disengaged position and closes an electrical contact 115 that bypasses resistor 110, whereupon motor 56 begins to run at a higher speed. As'relay 107 picks up, it lifts latch 99to the disengaged position and closes an electrical contact V116 that completes a circuit for energizing solenoid 91.

Y vWhenvsolenoid 91 is energized, itmoves actuator bar 92 ytoward the left and releases the brakes so that the Vsupply and take-up .reels can rotate. Becauselatches 98 and 99 have been lifted to disengagedy positions by relays` 106 and 107, slides 103 and `i104 do not move asy barr92, moves toward the left. Since there is no pull upon cable 55the capstan tape drive remains disengaged. As bar 92 moves toward the left latch 97 moves slide 102 toward the' left and pulls upon cable 7,4. This. causes motor 56 to supply torque to supply-reel 2, so that the supplyV reel rotates and rewinds the tape upon the supply reel, Motor 56 is now operating-at its maximum speed, and the tape is rewound quickly. Tostop the tape, it is again onlyrnecessary .to depress pushbutton 46 momentarily. whereupon rall the relays drop out and solenoid 91 is -de-energized. Y .r1

Sometimes itis desirable to move the tape in a forf ward direction at high speed. This is` accomplished by momentarily depressing pushbutton 44. This closes electrical. circuits that energize yrelays lltt'S and 106. Asl the two relays pick up, they lift latches 97 and 9d to their an electric circuit' for energizing solenoid 91. Operation Y The pull upon cable 55 moves idler 13 toward capstan 12 and grips tape 9 between the idler and the capstan.

Now the capstan draws tape 9 at constant speed pasterase head 8, recording head 4 and playback head 5. VThev pull upon cable 75 causes motor56 to supply torque to take-up reel 3 for winding tape upon the take-up reel as fast as it comes from the capstan tape-driving mechanism. Since the tape is now movingthrough the tape-driving mechanism at relatively low speed, themaximum power of motor 56 is not needed for driving thev take-up reel, and accordingly a speed-reducing resistor 110 isY connected in series with motor 56, as shown.

Tape 9 is now moving past the heads at an appropriate -do not depart from the true Ispirit and disengaged positions, and as actuator bar 92 is moved to.. the left by solenoid-91 the only one of three slides that is moved to the left Vis slide 104. Motor 56 is now operating at its maximum speed, audit-rotates the .take-up reel'3 for winding the tape onto the take-up reel.A The capstan tape drive remains disengaged, and tape is transferred at high speed from the supply reel to the take-up reel. Movement of the tape can be stopped byrnomentarily Vdepressing rpushbutton 416.`

It should be understood .that th' invention in its broader n aspects is not4 limited to the specific embodiment herein illustrated and described, and that the following claims are intended to cover all changes and modifications that scope of the invention. Y v What is claimed is: v f' l. A magnetic tape recorderco-mprising a panel having Va front, spindles for mounting a supply reel and a takeup reel behind said panel-and .substantiallyperpendicular thereto, two tape-.guide posts projecting from the front vof said panel in slanting relation thereto, one of said posts being approximately in lateral tapewise alinement with said supply reel and the other of said posts being approximately in lateral tapewise alinement with said ltake-up.

reel, each of said posts being kmounted upon a bracket fastened yto said panel by means yof a screw extending through an oversized hole so that by loosening the screw the angular orientation and lateral position of the post relative to the panel can be adjusted, an electromagnetic transducerhead mounted on the front of said panel between and in lateral tapewise alinement with said posts, said head having a tape-contacting face disposed substantially perpendicular to said panel, and a tape-drivingidevice mounted in lateral tapewise alinement with said head.

2. A magnetic tape recorder comprising a case having first and second recessed parallel opposite sides and a panel extending between said sides perpendicular thereto, a spindle for mounting a supply reel adjacent and parallel to said tirst side, a spindle for mounting a take-up reel adjacent and parallel to said second side, a rst guide post mounted perpendicular to said rst side and in lateral tapewise alinement with said supply reel, a magnetic erase head mounted on said first side in` lateral tapewise alinement with said rst guide post, said erase head having a tape-contacting face disposed substantially perpendicular to said rst side, a second guide post projectingoutward from said panel in lateral tapewise alinement with said erase head, a third guide post projecting outward from said panel in lateral tapewise alinement with said take-up reel, a fourth guide post mounted perpendicular to said second side in lateral tapewise alinement with said takeup reel, said second and third guide posts being mounted in slanting relation to said panel, said second guide post slanting generally toward said third guide post and generally away from said erase head, said third guide post slanting generally toward said second guide post and generally away from said fourth guide post, each of said -second and third guide posts being adjustably mounted on said panel so that their angular orientations and lateral positions relative to said panel are independently adjustable, magnetic recording and playback heads mounted upon said panel between and in lateral tapewise alinement with said second and third guide posts, said recording and playback heads having tape-contacting faces disposed substantially perpendicular to said panel, and a. tape-driving device mounted between and in lateral tapewise alinement with said recordingand playback heads and said third guide post.

3. A magnetic tape recorder comprising an electromagnetic transducer head, a supply-reel spindle, a take-V up reel spindle, a normally disengaged tape-driving mechanism, a motor, two normally-engaged brake mechanisms forpreventing rotation of respective ones of said two spindles, iirst andsecond cables operable to disengage respective ones of said brake mechanisms for permitting said spindles to rotate, a third cable operable for engaging said tape-driving mechanism, two-position Yclutch means for connecting said motor to supply torque either to saidsupply-reel spindle or to said take-up reel spindle selectively, a fourth cable operable to move said clutch means to one of itstwo positions for supplying torque to said supply-reel spindle, afth cable operable to move 12 saidv clutch'means to the other'ofritstwo positions forV supplyingrtorque to said take-up reel spindle, a control actuator'bar, -a solenoid operable to move said actuator bar longitudinally, acrossbar pivoted at its center to an` end of said actuator bar, said first and Vsecond cables being attached to opposite ends of said crossbar so that opera-k tion of said solenoid releases both of said brake mechanisms simultaneously, three longitudinally movable slides disposed parallel to said actuator bar, each of said slides having a transverse shoulder, three latches mounted upon said actuator bar.Y and rotative about its axis, eachof said latches extending outwardtransversely from said actuator bar and being adapted to abut on the shoulder of a respective one of said slides so that longitudinal movement of the actuator bar moves said latches longitudinally vfor moving said slides longitudinally, said third, f ourthiand fifth Ycables being` connectedto respective ones of said,

slides soV thatlongitudinal movement of one slide engages` said tape-driving mechanism, longitudinal movement of a second slide causes said motor to supply torque tosaid supply-reelv spindle, and longitudinal movement Vof `a third slideV causes lsaid motor to supplytorque tosaid` take-up reel yspindlethree electromagnetic devices operable for lifting respective ones of vsaid latches out of abutting relation Withjsaidshoulders Vof said slides so that the latches so lifted will not move the corresponding slide when said solenoid is actuated, and electrical switching means for operating said electromagnetic devices and said solenoid. Y

y, i ReferencesfCited Yin the le of this patent UNITED STATES PATENTS 257,050 Munson Apr. 25, 1882 580,806 Scranton Apr. 13, 1897 1,256,690, Helgeson- Feb. 19,1918 1,300,236 Atherton Apr. 15, 1919 1,462,487 Y De Vryv July 24, 1923 41,828,569 v Kellogg Oct. 20, 1931 1,927,615r Ponti et al. Sept. 19, 1933 V2,116,735 v Stevens.: May 10, 1938 2,153,666 Hill 'Apr.` 11, 1939 2,161,341 Fairbanks June 6, 1939 2,531,702 Reek et al. Nov. 28, 1950 2,555,671 `Baia June 5,V 1951 v2,574,218 Lynch Nov. 6, 1951 2,604,271 Moomaw July 22, 1952 2,639,333 Howell et al. May 19, 1953 2,652,204 Haynes Sept. 15, 1953 Y2,685,415A Wittel et al. Aug. 3 1954 2,686,845 Reed et a1 Aug. 17, 1954 2,700,904 Woods Feb. 1, 1955 2,705,639' fLekaS Apr. 5, 1955 2,743,878 Masrerson May 1, 1956 .2,761,017 l CamrasV Aug. 28, 1956 v2,775,407 nummer a1. Dec. '25, 1956 Truesdale Sept. 17, 1957 

